Co-release of cytokines after drug-eluting stent implantation in acute myocardial infarction patients with PCI

Acute Myocardial Infarction (AMI) after Percutaneous Coronary Intervention (PCI) often requires stent implantation leading to cardiovascular injury and cytokine release. Stent implantation induces cytokines production including TNFα, Hs-CRP, IL-1ß, IL2 receptor, IL6, IL8, and IL10, but their co-release is not extensively established. In 311 PCI patients with Drug-Eluting Stent (DES) implantation, we statistically evaluate the correlation of these cytokines release in various clinical conditions, stent numbers, and medications. We observed that TNFα is moderately correlated with IL-1ß (r2 = 0.59, p = 0.001) in diabetic PCI patients. Similarly, in NSTEMI (Non-ST Segment Elevation) patients, TNFα is strongly correlated with both IL-1ß (r2 = 0.97, p = 0.001) and IL8 (r2 = 0.82, p = 0.001). In CAD (Coronary Artery Disease)-diagnosed patients TNFα is highly correlated (r2 = 0.84, p = 0.0001) with IL8 release but not with IL-1ß. In patients with an increased number of stents, Hs-CRP is significantly coupled with IL8 > 5 pg/ml (t-statistic = 4.5, p < 0.0001). Inflammatory suppressor drugs are correlated as TNFα and IL8 are better suppressed by Metoprolol 23.75 (r2 = 0.58, p < 0.0001) than by Metoprolol 11.87 (r2 = 0.80, p = 0.5306). Increased TNFα and IL-1ß are better suppressed by the antiplatelet drug Brilinta (r2 = 0.30, p < 0.0001) but not with Clopidogrel (r2 = 0.87, p < 0.0001). ACI/ARB Valsartan 80 (r2 = 0.43, p = 0.0011) should be preferred over Benazepril 5.0 (r2 = 0.9291, p < 0.0001) or Olmesartan (r2 = 0.90, p = 0.0001). Thus, the co-release of IL-1ß, IL8 with TNFα, or only IL8 with TNFα could be a better predictor for the outcome of stent implantation in NSTEMI and CAD-diagnosed AMI patients respectively. Cytokine suppressive medications should be chosen carefully to inhibit further cardiovascular damage.

that STEMI-diagnosed diabetes patients have more inflammatory cells with severe atherosclerotic plaques than nondiabetes patients.Incretin therapy reduces inflammatory cells and MACE (Major Adverse Cardiac Events) in STEMI-diabetic Mv-NOCS (Multivessel Non-Obstructive Coronary Stenosis) patients with lower mortality 4 .Similarly, incretin users of NSTEMI-NOCs patients with diabetes showed a lower incidence of mortality and cardiac death compared to nondiabetic patients.The Incretin-based therapy exerts its effect by reducing inflammatory burden in diabetic NSTEMI-NOC patients 5 .PCI patients with diabetes also have an increased incidence of restenosis and stent thrombosis than non-diabetic patients.SGLT2 (Sodium/glucose cotransporter 2) inhibitor therapy reduced MACE in Type II diabetes (T2DM) and acute coronary syndrome patients.This reduction is attributed to the anti-inflammatory effect of SGLT2 6 .Due to higher oxidative stress hyperglycemic AMI patients have lower circulating EPC (Endothelial Progenitor Cells) and SIRT1 levels that differentiate EPCs 7,8 .Notably, it is demonstrated that SGLT2 therapy in PCI with hyperglycemic patients having similar stents induces an anti-inflammatory effect and increases SIRT1 level with EPCs that leads to myocardial regeneration and neovascularization leading to better clinical outcome s9 .
The principle cytokines are mainly IL8 and TNFα with Hs-CRP (Hypersensitive C-Reactive Protein) for AMI 10,11 , TNFα, Hs-CRP, IL6 with STEMI patients 12 , IL-1ß for coronary endothelial dysfunction in CAD (Coronary Artery Disease) patients 13 , IL6, IL8, and TNFα for patients with severe stenosis in a saphenous vein 14 , TNFα for restenosis patients after coronary angiography 15 , IL-1ß, IL6 and TNFα for AMI patients with significant stenosis of the ramus interventricularis anterior 16 .T2DM Mv-NOCS patients with SGLT2 inhibitor users showed reduced BMI, and inflammation than non-users with lower levels of NLRP3 inflammasome formation and IL-1ß 17 .Adiponectin that is exclusively secreted from adipose tissue and inflammatory cytokines including TNFα, PAI-1 (Plasminogen Activator Inhibitor type 1), IL-6, leptin, and resistin favorably modulate the endothelial inflammatory responses to vascular injury 18 and linked to restenosis and Acute Coronary symptoms after PCI 19 .It is observed that lower levels of adiponectin and TNFα in preprocedural serum are significantly associated with the development of restenosis due to endothelium function impairment.Increased levels of resistin and adiponectin are significantly associated with better clinical outcomes in restenosis patients after PCI with angioplasty and DES 19 .Most importantly, a majority of these reports only studied a single cytokine release after stent implantation, without any correlation to several cytokines released together.
The outcome of stent implantation depends on several factors such as age, various clinical conditions, the number of stents, or the length/volume of stents being implanted.Six types of either plastic or metallic stent are generally used to maintain normal blood flow.Recently DES (Drug Eluting Stent) showed major advances in reducing morbidities and other health complications 20,21 .Since cytokine release is an inevitable outcome of stent implantation, a correlation of the extent of cytokine releases with the number of stent implantation or total stent length or volume may strengthen the hypothesis of cytokine-mediated complications.
Here we assessed the levels of TNFα, IL-1ß, IL2 receptor, IL6, IL8, IL10, and Hs-CRP and correlated their levels with various conditions in 311 AMI patients with PCI after metallic DES stent implantation.We studied the correlation of two or more cytokines release to understand whether they are occurring in a maximum number of patients significantly.Most of the studies earlier focused on single cytokine release after stent implantation, thus we enquired if the expression of two or more cytokines is correlated with the increased number or length, or volume of stent implantation.We observed that after stent implantation co-release of TNFα with IL-1ß or IL8 are the major cytokines that are correlated with various conditions, such as in diabetes and NSTEMI patients with AMI after PCI.These results could be confirmed with more recurrent studies with a larger cohort and would pave the way for better diagnostics and treatment options in PCI patients after stent implantation.

The extent of cytokine secretion does not differ with stent number or the total stent length
It could be hypothesized that "the total length of stent" may be more critical than the "number of stents" for the extent of cytokine secretion after stent implantation.The number of stents is highly correlated with the total stent length/volume as expected (Table 5).However, none of the criteria as Age, Diabetes or hypertension, and cytokine release is highly correlated with the total length of stent nor with the total number of stents (Table 5).In some of the cases like in coronary angioplasty results with RCA-PCI, LAD-PCI, and LCX-PCI, both numbers of the stent and the total length of the stent are significant but poorly correlated.

Discussion
The inflammatory biomarkers are potential non-invasive, diagnostic, predictive, prognostic, and therapeutic molecular biomarkers after implantations of stents 22,23 .Cytokine release is an obvious outcome after stent implantation.Although major cytokines like TNFα, Hs-CRP, IL-1ß, IL6, and IL8 are reported after stent implantation in several related disease conditions, such as AMI with PCI, stenosis, coronary angiography, coronary endothelial dysfunction, etc. [12][13][14][15][16] , their correlation of co-release in blood has not been extensively established with special emphasis on age, sex, gender, clinical conditions (diabetes, hypertension), various diagnosis criteria (e.g.STEMI, NSTEMI, UA, CAD) and for treatments with antiplatelet drugs, statins, and beta-blockers, etc.
TNFα is the most common cytokine release after stent implantation in PCI 1, 12,23 .Hs-CRP 11,12,22 , IL-1ß 13,16 , IL6 14,16,24 , and IL8 10 release have already been assessed independently.In diabetic patients after stent implantation, IL-1ß and IL8 release are significantly but moderately correlated with TNFα but less significant in nondiabetic patients.Although each of these cytokines' release with TNFα has been observed previously in diabetic patients with PCI, their correlation of composed secretion was not established 10,13 .Our results suggest that in diabetic patients, IL-1ß and IL8 secretion with TNFα could be developed as targets for drug treatment after stent implantation to suppress inflammatory complications.An increased number of stents is significantly correlated with TNFα and IL-1ß or IL8 release in PCI patients when diagnosed with NSTEMI but not with STEMI or UA.Kozel et al 12 observed no difference in TNFα, IL6, or HS-CRP levels until after one year of metallic stent implantation in 46 STEMI patients which supports our results as our STEMI patients with DES did not show any significant correlation with any of these cytokine releases.In CAD we also observed the correlated expression of TNFα with IL8 but not with IL-1ß.No information or study was conducted earlier in NSTEMI, UA, or CAD patients for the release of these cytokines together.Nevertheless, a large cohort of patients can be recruited to validate the correlations of TNFα and IL-1ß or IL8 in NSTEMI or CAD patients.An increase in IL6 level is correlated with an increased number of stents, while the levels of IL-1ß, IL2 receptor, IL8, and IL10 are unchanged, indicating that these cytokines do not change with the increased number of stents in PCI patients.
Hs-CRP is a new independent index for CHD (Coronary Heart Disease) with a strong utility for forecasting cardiovascular disease.Hs-CRP level varies extensively after stent implantation in STEMI-diagnosed patients 12,22,23 .We observed an increased number of stent varies slightly with Hs-CRP levels at > 5 mg/L, but remains unchanged at basal levels (< 5 mg/L) but does not correlate with age or blood glucose level.With an increased number of stents, a poor correlation is observed between Hs-CRP and IL2 receptor, IL-1ß, IL6, or IL10 implying that their secretions are not coordinated.But a higher Hs-CRP (> 5 mg/L) level is significantly associated with both > 20 pg/L and < 20 pg/L concentrations of IL8.Although the release of these two cytokines is not studied earlier together, our observation suggests that IL8 release is coupled with Hs-CRP level and that could be potent diagnostics criteria after stent implantation in PCI patients.
The use of certain medications is obvious as a precaution to suppress inflammatory cardiovascular complications after stent implantation 1,6 .In this study, all medications related to the suppression of inflammation were used within 2-3 h after stent implantation.The suppressive effect of medication on inflammatory cytokine would represent a negative or poor correlation.To develop a prognostic approach after stent complications, it is extremely important to correlate their secretion in blood in a cumulative way for understanding their full function.
Beta-blockers are shown to effectively suppress inflammatory molecules, such as TNFα and IL10 in cardiomyopathy patients 25 .During AMI, the leukocytes especially neutrophils and monocytes readily migrate to the injury site to clear the dead cells and debris as delayed response leads to maladaptive tissue remodeling or scar formation with a negative impact on heart function.VCAM1 and CCL2 positively and CCR2 negatively regulate the migration of these leukocytes.Chronic beta-blocker treatment increases VCAM1 and decreases CCR2 expression to augment the recruitment of leukocytes and reduce the severity of innate immune responses leading to increased wound healing capacity at the injury site 26 .In addition, ß1-AR (beta-adrenergic receptor) antagonist Metoprolol treatment also increases VCAM1 expression and leukocyte accumulation while reducing CCR2 expression and alters the leukocyte function for responsiveness to acute injury.We observed that a lower dose of beta-blocker Metoprolol-11.87 is highly correlated with the increased level of TNFα and IL8 but moderately with a higher dose of Metoprolol-23.25.Thus, the effect of a higher dose of this beta blocker could have a better suppressive effect after stent implantation which could be further evaluated with other supporting studies.
Rosuvastatin-10 users have higher TNFα and IL8 or IL-1ß levels than the patients using Simvastatin-20 or Simvastatin-10.This implies that having similar blood vessel damage Simvastatin better suppresses cytokine releases than Rosuvastatin-10.Thus, after stent implantation before choosing any of these drugs, it could be helpful to determine the correlated release of TNFα and IL-1ß or IL8 levels.
Antiplatelet drug Clopidogrel, but not Brilinta, is more effective for suppressing the effect of TNFα and IL8.TNFα varies significantly with the antiplatelet drug Clopidogrel and it conjugately varies with IL8 when both  28 .After discontinuing DAPT Bioabsorbable polymer Everolimus-Eluting Synergy Stents in high-risk patients reduces these symptoms 29 .TNFα and IL8 levels are significantly correlated with ACI/ARB drug Benazepril 5.0 or Olmesartan 20 but not with Valsartan 80 or Perindopril 4.However, further research and supporting evidence are needed to evaluate whether Perindopril 4 or Valsartan 80 should be preferable to Benazepril 5.0 or Olmesartan 20 after PCI intervention with stent implantation.It also appears that the differences in the number/length/volume of the stent may not have a profound effect on cytokine release or other factors such as Age or hypertension or medications used.
Several approaches could be manifested to neutralize these cytokines to reduce inflammation after stent implantation.TNFα antibody eluting stents are shown to reduce restenosis in saphenous vein organ culture in vivo and may have potential clinical benefit in PCI 30 .Further, these TNFα antibodies eluting stents may be conjugated with IL-1ß or IL8 based on their correlation with stent implantation in PCI patients.Apart from this strategy, intravenous anti-TNFα (etanercept, Adalimumab, Infliximab) 31,32 , anti-IL8 33,34 or anti-IL-1ß (canakinumab, gevokizumab) [35][36][37] gene disruption or treatment are shown to reduce myocardial infarction (MI) in animal models, human patients or human cells [38][39][40][41] .However, the Clinical trial with anti-TNFα alone did not reduce heart failure possibilities in heart failure patients 42,43 and has been attributed to the counterplay of TNF receptor, TNFR1, and TNFR2 mediated inflammasome activation 35 .Nevertheless, IL-1ß or IL8 treatment with TNFα could have the potential clinical benefit after stent implantation.The advantages of using these antibodies are already used for various heart ailments, and their safety issues are well documented.

Limitations
This is a single-center study that includes evaluations of cytokine release after stent implantation.Although we considered the total length or volume of stents by the addition of several small stents, a longer single stent could affect cytokine secretion differently which has not been addressed.Stent length/volume may be extensively assessed in future studies with more subtle criteria to evaluate the extent of cytokine secretion.ACS (Acute Coronary Syndrome) is an acute occlusion of a coronary artery segment or an at least relevant stenosis leading to schema and hypoxia of the myocardium, respectively.So, the measured cytokines here could also represent the cumulative effect of both processes rather than from the damage of the vascular wall alone after stent implantation.Whatever the reason for cytokine secretion, we raised the possibility that instead of studying single cytokine, correlating two or multiple cytokine releases may be better predictors of various conditions in PCI patients after stent implantations.

Conclusions
Stent implantation causes cardiovascular injury that leads to multiple cytokine releases but their co-release has not been extensively established.We showed here that in diabetic PCI patients, IL8 and IL-1ß release is correlated with TNFα release, thus together they could be a predictor of complications and should be suppressed.Similarly, in NSTEMI patients, TNFα, IL-1ß, or IL8 release is significantly correlated with an increased number of stents and thus needs further attention to treat these patients.In CAD patients, TNFα secretion is correlated with IL8 but not with IL-1ß.Our data also suggest that the release of TNFα and IL8 is better suppressed by beta-adrenergic receptor Metoprolol 23.75 but not with its lower dose and also better suppressed by Clopidogrel than Brilinta.TNFα and IL-1ß release is poorly correlated with Simvastatin-20 but not with Rosuvastatin-10, thus former should be evaluated for better clinical outcomes in further studies.We also observed that after stent implantation, Valsartan 80, or perindopril 4, should have higher efficacy than Benazepril 5.0 or Olmesartan 20.Our results suggest that after DES implantation, measurements of TNFα, IL8, and IL-1ß and their correlation analyses could be evaluated further in a large cohort to select drugs to reduce over-inflammation-mediated cardiovascular complications to prevent morbidities.

A Ethical statement
The Ethics Review Committee of the Chongming Branch of Shanghai Tenth Peoples Hospital approved this study (Ethics Number: EC20221104-1001, Dated: 2013-09-10).All methods were performed following the relevant guidelines and regulations.All subjects provided written informed consent before participating in this study.During CAD evaluation both the angiography and coronary stent implantation were completed voluntarily and were selected by the patients and their family members.The patient's family members signed the informed consent forms in all cases.

Recruitment of patients
Inpatients were admitted to the Department of Cardiology, Xinhua Hospital, Shanghai Jiaotong University School of Medicine from 2014 to 2015.All blood biochemistry, electrocardiogram, echocardiography, etc. were examined in the hospital.All patient records and test results were collected after discharge.The patient diagnosis, measurements, and treatment outcomes are in Supplementary Tables 1, 2, and 3.

Inclusion and exclusion of patients
During the study period (01/2014-05/2015, 17 months), approximately ~ 40 patients were recruited every month (a total of 672 patients).Most patients who refused to have a stent implanted (n = 32) or required surgical bypass (n = 221) or could not be followed up (n = 31), so they were excluded from this study.All patients with STEMI, NSTEMI, UA, and CAD are diagnosed based on international guidelines.Some patients did not give consent for

Detailed procedures STEMI (ST-Elevation Myocardial Infarction) patients:
STEMI patients have a significant elevation of ST segment in ECG associated with myocardial ischemia with persistent chest discomfort or other associated symptoms suggestive of ischemia as shortness of breath, nausea, fatigue, and palpitations.STEMI was diagnosed based on international guidelines as at least two anatomically contiguous leads (for men < 40 years, > 2.5 mm; < 40 years, > 2 mm; for women, > 1.5 mm, for men and women, V4R, V3R, V7-V9 > 0.5 mm).Elevated cardiac troponin values were at least one value above the 99 th percentile.PCI.After an initial assessment, primary PCI was performed within 3 h of hospital admission as a standard procedure by inserting a catheter into the artery that released a "radio-opaque dye (iodine-based) to locate the lesions clearly by a real-time x-ray imaging.The catheter left the DES spanning the lesions in the artery.

NSTEMI (Non
For STEMI patients, when the STEMI onset was less than 12 h, they underwent emergency PCI; When the onset was more than 12 h, they first received conservative treatment with drugs; If the patient's condition was relieved and the vital signs were stable, then PCI was performed after one week; if the patients were not well remitted or if there was progressive aggravation, they were given emergency PCI.

LAD-PCI, RCA-PCI and LCX-PCI
Percutaneous Coronary Intervention (PCI) of lesions in the proximal Left Anterior Descending coronary artery (LAD) is worse in conditions than proximal Right Coronary Artery (RCA) and Left Circumflex coronary artery (LCX).

Stent implantation
The severity of the patient's disease and the damage to the blood vessels combined with the consent of their families were considered for selecting stents, which vary based on length, number, and manufacturer.In some patients, a single blood vessel has a long course.In some patients with multivessel disease, multiple stents of the same type were implanted.All stents are drug-eluting metal stents (DES) that are imported (Lepu, Medtronic, Resolute) or domestically obtained (JWMS).Most of them used in this study are balloon stents of Firebird, Excel, NANO, and TIVOLI.We limited our study analysis to the level of cytokine and chemokines from similar types of stents to minimize the errors.As diverse types of stents of various lengths, types, or volumes may affect the release of different levels of cytokines and complicate the analysis,
Vol:.( 1234567890 The SYNTAX score, an angiographic score, was applied to assess the severity and complexity of cardiovascular disease and the severity of coronary lesions 44 .The total SYNTAX score for each participant was calculated by taking the sum of the total points assigned to each lesion with > 50% stenosis and > 1.5 mm diameter in coronary arteries.Two observers independently calculated the SYNTAX score based on Coronary Angiography.The participants were divided into three subsets according to SYNTAX score: Group 1: score ≤ 22, Group 2: score = 23-32, Group 3: score > 33 45 .

Total length/volume of stent
The total length/volume of the stent was calculated by multiplying the dimension of each stent (cubic mm).This value is again multiplied by the number of stents for a single type or multiple types of cubic mm value of each stent are added as specified for each patient.

Statistical analysis
Statistical analysis was done using various software such as SPSS 16.0 and MEDCALC etc.To calculate the simple arithmetic means with the significance of occurrence for the normalized distribution, a D' Augustino Pearson Test or Chi-square test was done.For all statistical analysis, a single data table was prepared to consist of all parameters provided in supplementary Tables 1, 2, and 3 and used as data in the MEDCALC software.

Summary statistics
For determining the arithmetic mean and normal distribution, parameters were selected manually with various combinations, such as age vs number of stents, number of stents vs IL8 level, and so on.In each case, D' Augustino Pearson Test is selected for normal distribution, and software output of arithmetic mean, normal distribution, 95% Confidence Intervals (CI), and acceptability of normal distribution are mentioned.

Correlation
R 2 (correlation coefficient) was calculated by using the correlation coefficient test using the same data table.In each case, variable X and variable Y are selected, such as X = TNFα and Y = IL8 with a filter, such as Hypertension = "Yes".Similarly, to assess the effect of stent implantation, the number of stents > 1 is set for filter and other covariates such as EF% in Y-axis, and other cytokines, such as IL8, IL-1B, etc. in the X-axis.For results, r 2 , p-value, and 95% CI are noted from the software output.Depending upon the r 2 value as > 0.80-high, 0.4-0.8-moderateand 0.0-0.4-poorwere designated as the extent of correlation with a p-value below < 0.05 as significant.

Regression analysis
Regression (designated here as R 2 ) and logistic regression were done by calculating intercept and slope by plotting x and y with the use of each criterion in the data.Both independent and paired t-tests were used to test the hypothesis of the release of cytokines together.
Baseline characteristics of PCI patients for statistical analysis with various criteria are listed in Supplementary Table 4 (Baseline characteristics).A Kolmogorov-Smirnov test was used to assess the normality of the distribution for all variables.The distribution of biochemical markers among the participants, excluding the blood glucose, TG, TC, LDL, and HDL values, was skewed in this study.The skewed variables were expressed in the median, and the interquartile range was analyzed after a logarithmic transformation.The correlation between the inflammatory cytokines was analyzed with a Spearman coefficient.We compared the inflammatory cytokines of participants using one-way ANOVA.Generalized linear regression analysis was performed to determine the association between inflammatory cytokines and various conditions.All tests were two-sided and p < 0.05 was considered statistically significant.

Informed consent
All participants consented to the study.

Figure 1 .
Figure 1.Correlation coefficient (r 2 ) in various PCI patients with TNFα or Hs-CRP release.(a) r 2 of TNFα and IL-1ß or IL8 in STEMI, NSTEMI, UA and CAD patients.(b) r 2 of TNFα and IL8 or IL-1ß in patients with LAD-PCI, RCA-PCI and LCX-PCI.(c) r 2 of TNFα release and IL8 or IL-1ß in various symptomatic conditions.(d) r 2 of HS-CRP release and various cytokines in diabetes patients with PCI.

Figure 3 .
Figure 3. Increased number of stent implantation is significantly associated with TNFα, IL-1ß, and IL8.(a) t-test shows that the increased number of stent implantation is significant with TNFα release in both with positive t-statistic and p-value < 0.001 a) > 25 pg/L), error bar represents the 95% CI for stent number (2.44-2.73)and for TNFα (63.00-76.59)and (b) below < 25 pg/L of TNFα release.Error bar represents the 95% CI for stent number (2.44-2.73)and for TNFα (13.78-15.71).(c) Regression analysis shows that in patients with IL8 > 20 pg/L, number of stent and HS-CRP increase are not significantly associated with IL-1ß release (p = 0.3052) as IL-1ß is decreasing.In the left panel, the regression parameters and calculations are shown.(d) Regression analysis shows that the increased number of stent implantation with higher TNFα release is also associated with higher IL-1ß secretion.Orange rounds are patients, and the line represents the IL-1ß release increases as the TNFα and number of stents increases that starts from little more than 1(1.026 + 0.0138).Regression parameters and calculations are shown in the left panel.

Figure 4 .
Figure 4. Selective ACE-ARB and antiplatelet drugs also suppress TNFα release in PCI Patients.(a) ACE-ARB drug Benazepril 5 is effective as it shows correlated with TNFα and IL8 release but no other ACE-ARB-drug.Left panel shows the distribution and right panel shows the heatmap of patients (maximum number of patients belong in the orange area) releasing these cytokines.(b) Similarly, antiplatelet Clopidogrel is correlated with TNFα and IL-1ß release but no other antiplatelet drug, such as Brilinta.Left graph shows the distribution and right graph shows the heatmap of patients with both TNFα and IL-1ß release.(c) TNFα is significantly correlated with IL8 in various medications used after stent implantation.(d) Significant correlation of TNFα with IL-1ß in various medications used after stent implantation.

Table 1 .
TNFα level is correlated in various diagnosed PCI patients after stent implantation.

Table 2 .
TNFα, IL-1ß, and IL8 release increases with an increased number of stents with various clinical conditions of PCI Patients.

Table 5 .
Correlation of cytokine expression with stent number and total stent length.Clopidogrel and Brilinta are used.Several combinations, such as Dual Antiplatelet Therapy (DAPT) are helpful to reduce morbidities but increase DAPT-related bleeding complications and stent thrombosis27 , Vol:.(1234567890) Scientific Reports | (2024) 14:1236 | https://doi.org/10.1038/s41598-024-51496-8www.nature.com/scientificreports/ research study(n = 14).Other patients (n = 63) have different types of stents except for DES of various shapes and unique manufacturers that are excluded from the study analysis.311 patients are included in the study with similar types of stents (mostly balloons). a UA has the same timing as NSTEMI that are collectively referred to as NST-ACS (non-ST-segment elevation-Acute Coronary Syndrome) those have neither ST-segment elevation nor passed the elevated troponin level criteria.According to the Grace score, very high-risk patients underwent coronary angiography within 2 h after PCI; intermediate-risk patients underwent coronary angiography within 24 h after PCI; and low-risk patients underwent coronary angiography within 72 h after PCI.For CAD patients having symptoms of chest pain and discomfort, non-invasive examinations, such as electrocardiogram, exercise treadmill test, etc., are generally performed first.If myocardial ischemia is observed, coronary angiography is performed.If the vascular stenosis is > 75%, PCI treatment is performed.